Apex seal for rotary piston engines

- Mazda Motor Corporation

A method for manufacturing an apex seal for rotary piston engines, comprising steps of providing a substrate made of an iron based material and having a portion wherein a sliding surface is provided, spraying the portion of the substrate with a molten-state Co-Mo-Si type intermetallic compound to form a coating of the compound, heating the coating of the compound by applying electron beams or laser beams to thereby make the intermetal compound dispersed in the substrate, heating the substrate to 580.degree. to 780.degree. C. to anneal it and machining the substrate into a configuration of the apex seal. The apex seal made in accordance with this method is also disclosed.

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Description
BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an apex seal for rotary piston engines. More particularly, the present invention, pertains to an apex seal made of an iron-based material.

2. Description of Prior Art

In rotary piston engines, working chambers are separated from each other by means of side seals provided on side surfaces of rotors and apex seals provided on apex portions of the rotors. Among these seals, the apex seals are slidably moved at very high speeds along the inner wall surfaces of the rotor housings and besides they are also subjected to influences of combustion gas pressure, inertia force and spring force which tend to force strongly the apex seals against the inner wall surfaces of the rotor housings. Thus, the apex seals are required to have superior wear-resistant property.

Conventional rotary piston engines use apex seals which are prepared in accordance with the process as taught by Japanese patent publication No. 48-25290 published on July 27, 1973. According to the teachings by the Japanese patent publication, a cast iron blank is subjected to an electron beam embodiment to have a part of the blank material molten and thereafter the blank is quenched so that the molten material is solidified. In the course of solidification, a chilled structure is formed due to the chilling effect of the part of the blank where the material is not molten. It has been proved that the apex seal formed under this process has a good wear-resistant property. It should however be noted that the hardness and therefore the wear-resistant property of this material decreases under a high temperature. In view of the fact that recent high power rotary piston engines are operated under a high speed and high output power so that the conventional apex seals show insufficient wear resistant property for such high power rotary piston engines.

Japanese patent publication No. 49-30895 discloses on alloy having a high wear-resistant property. This alloy has a hard matrix metal containing hard inter-metal compounds dispersed in the matrix metal for providing an improved wear-resistant property. However, this type of material is not suitable for apex seals of rotary piston engines because the material has a poor thermal shock resistance so that apex seals made of this material are apt to produce cracks when they are subjected to repeated heating and cooling.

SUMMARY OF THE INVENTION

It is therefore an object of the present invention to provide apex seals for rotary piston engines, which have a high wear-resistant property and a high thermal shock resistance.

Another object of the present invention is to provide apex seals which are suitable for use with high power rotary piston engines.

According to the present invention, the above and other objects can be accomplished by an apex seal for rotary piston engines comprising a substrate of an iron-based material having a sliding surface portion containing a matrix of Co-Mo-Si-Fe type alloy and Co-Mo-Si type intermetallic compound dispersed in the matrix in an amount of 25 to 60 vol. %, said matrix containing less than 25 weight % of Fe. The substrate may be made of a cast iron as in the conventional apex seal.

Typically, the Co-Mo-Si type intermetal alloy may be the one which is disclosed by the aforementioned Japanese patent publication No. 49-30895. Such alloy is commercially available from E, I, Du Pont de Nemours and Company Inc. under the trademark "TRIVALLOY". Table I shows a list of series of TRIVALLOY available in the market.

                TABLE I                                                     

     ______________________________________                                    

     COMPOSITION (weight %)                                                    

     TYPE    Co        Ni    Mo        Cr  Si                                  

     ______________________________________                                    

     T-100   55        --    35        --  10                                  

     T-400   62        --    28         8  2                                   

     T-700   --        50    32        15  3                                   

     T-800   52        --    28        17  3                                   

     ______________________________________                                    

According to the present invention, the Co-Mo-Si type intermetallic compound is dispersed in the matrix of Co-Mo-Si-Fe type alloy in an amount of 25 to 60 vol. %. With the intermetal alloy content less than 25 vol. %, the wear-resistant property is insufficient. It is impossible to manufacture a material containing more than 60 vol. % of the intermetal compound.

According to a further feature of the present invention, the Fe content in the matrix is less than 25 weight %. With the Fe content greater than 25 weight %, the wear-resistant property becomes insufficient. There is no limitation in the thickness of the sliding surface portion, however, a practically preferable thickness is 1.5 to 3.5 mm.

The apex seal of the present invention can be manufactured in accordance with the following procedures. A substrate of an iron based material is at first prepared and sprayed at a surface with a molten Co-Mo-Si type intermetallic compound, preferably in an amount of 0.5 to 2.5 g/cm.sup.2. Thereafter, the coating of the intermetallic compound is heated by applying electron beams or laser beams so that the Co-Mo-Si type intermetallic compound is dispersed in the substrate. Then, the substrate is annealed under a temperature of 580.degree. to 780.degree. C. and finally machined.

The invention will now be described with reference to specific examples taking reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1 and 2 are microscopic pictures showing examples of the present invention; and,

FIG. 3 is a microscopic picture of a comparative example.

EXAMPLES

An apex seal substrate of 70 mm long, 10 mm high and 3 mm thick is prepared in a conventional manner from a cast iron and spray at a sliding surface portion with a molten T-100 TRIVALLOY alloy in an amount of 0.3 to 3.0 g/cm.sup.2. Thereafter, the sprayed coating of the alloy is subjected to a treatment by electron beams under the accelerating voltage 30 KV and the beam current 55 mA and the substrate is then annealed under 530.degree. to 880.degree. C. Then, the substrate is machined to a configuration of an apex seal of 70 mm long, 8 mm high and 3 mm thick.

The apex seal thus formed is then subjected to wear and thermal impact tests with the following test conditions.

Wear Test (Slider Type Wear Test)

Lubrication: Dry

Sliding Surface: Cr plated surface having a hardness of Hv 1000 to 1200

Sliding Speed: 5 m/sec.

Test Time: 20 min.

Depressing Load: 4.5 kg

Thermal Impact Test

Cycles of heating to 380.degree. C. and then water quenching have been repeated for 20 times and investigated for presence of cracks.

                                    TABLE II                                

     __________________________________________________________________________

                      Co--Mo--Si                                               

                               Fe                                              

                ANNEAL                                                         

                      TYPE     CON-  THICKNESS    CRACK                        

           SPRAY                                                               

                TEMP. INTERMETAL                                               

                               TENT  OF ALLOY                                  

                                             WEAR OCCURANCE                    

     SAMPLES                                                                   

           (g/cm.sup.2)                                                        

                (.degree.C.)                                                   

                      (Vol. %) (weight %)                                      

                                     LAYER (MM)                                

                                             (.mu.)                            

                                                  (%)     REMARKS              

     __________________________________________________________________________

     S1    0.5  580                          31   10      INVENTION            

     S2    1.5  580   25       23.5  2.0     25   14      INVENTION            

     S3    2.5  580   45       13.0  2.0     14   19      INVENTION            

     S4    0.5  780                          50    4      INVENTION            

     S5    2.5  780                          32   15      INVENTION            

     S6    0.3  580   10       20.4  2.0     65    8      COMPARATIVE          

                                                          EXAMPLE              

     S7    3.0  780                          --   --      COMPARATIVE          

                                                          EXAMPLE              

     S8    0.5  530                          34   21      COMPARATIVE          

                                                          EXAMPLE              

     S9    2.5  880                          72   10      COMPARATIVE          

                                                          EXAMPLE              

     S10   2.5  680   25       30.0  3.0     72   12      COMPARATIVE          

                                                          EXAMPLE              

     S11                                     82    5      PRIOR ART            

     ALLOW-                                  LESS LESS                         

     ABLE                                    THAN THAN                         

     LIMITED                                 60.mu.                            

                                                  20%                          

     __________________________________________________________________________

In the Table II, the samples S1 through S5 are embodiments of the present invention and all of these samples meet the requirements. It will be noted in Table II that under the same annealing temperature the wear decreases as the spray quantity increases but the crack occurence increased instead. This is understood as being caused by the fact that the TRIVALLOY alloy is diluted in less amount as the spray quantity increases. Under the same spray quantity, the crack occurence decreases as the annealing temperature increases but the wear increases instead. This is understood as being caused by the fact that the material of the substrate which has been mixed with the TRIVALLOY alloy during the electron beam treatment is softened in the annealing.

The samples S6 through S10 are prepared by processes similar to those wherein the samples S1 through S5 are prepared. The sample S6 shows an excessive wear due to insufficiency of the spray quantity. The sample S7 has an excessive spray quantity so that it is impossible to machine into a configuration of an apex seal. The sample S8 shows an insufficient resistance to thermal shock since the annealing temperature is insufficient. The sample S9 is dissatisfactory in respect of the wear resistance since the annealing temperature is excessively high. The sample S10 contains an excessive amount of Fe due to an excessive dilution of the alloy by the substrate material.

Referring to FIGS. 1 through 3 which show the microscopic structure of the samples S2, S3 and S6, respectively, the whitish areas designate the intermetal alloy of Co-Mo-Si type. It will be noted in these figures that the volumetric content of the intermetal alloy is the highest in the sample S3 and the lowest in the sample S6. It will further be noted in the Table II that the apex seal of the present invention has superior wear-resistant property and thermal shock resistance.

The invention has thus been shown and described with reference to specific examples, however, it should be noted that the invention is in no way limited to the details of the described examples but changes and modifications may be made without departing from the scope of the appended claims.

Claims

1. An apex seal for rotary piston engines comprising a substrate of an iron-based material having a sliding surface portion having a thickness of 1.5 to 3.5 mm, said sliding surface portion being formed by dispersing a Co-Mo-Si intermetallic compound into an iron-based material to produce a matrix of Co-Mo-Si-Fe alloy formed by Fe content in the iron-based material which is molten when the Co-Mo-Si intermetallic compound is dispersed in the iron-based material and the Co-Mo-Si intermetallic compound dispersed in the matrix in an amount of 25 to 60 vol. %, said matrix containing less than 25 weight % of Fe.

2. An apex seal in accordance with claim 1 in which said Co-Mo-Si type intermetal compound contains in weight 55% of Co, 35% of Mo and 10% of Si.

Referenced Cited
U.S. Patent Documents
3180012 April 1965 Smith
3841724 October 1974 Culabrese
3938814 February 17, 1976 Cromwell
4212900 July 15, 1980 Serlin
4232094 November 4, 1980 Rhodes et al.
4409298 October 11, 1983 Abertson et al.
4532191 July 30, 1985 Humphries et al.
4537167 August 27, 1985 Eudier et al.
Foreign Patent Documents
883221 October 1971 CAX
48-25290 July 1973 JPX
49-30895 August 1974 JPX
35889 September 1978 JPX
Other references
  • Price et al, Chem. Abs. 88:124933t, "Some Comparative Properties of Laves . . . ", 1978. Manolache et al., Chem. Abs. 46:185343n, "Effect of Sintering Comparative . . . , Tribaloy", 1981. Halstead et al, Chem. Abs. 103:41031z, "The Effect of Iron Additions . . . Tribaloy . . . ", 1985.
Patent History
Patent number: 4693942
Type: Grant
Filed: Jan 7, 1986
Date of Patent: Sep 15, 1987
Assignee: Mazda Motor Corporation (Hiroshima)
Inventors: Tsutomu Shimizu (Higashi-Hiroshima), Jun Miyata (Hiroshima), Koji Yagii (Hiroshima)
Primary Examiner: L. DeWayne Rutledge
Assistant Examiner: John J. Zimmerman
Law Firm: Fleit, Jacobson, Cohn & Price
Application Number: 6/816,834